A creative destruction approach to replication: implicit work and sex morality across cultures

How can we maximize what is learned from a replication study? In the creative destruction approach to replication, the original hypothesis is compared not only to the null hypothesis, but also to predictions derived from multiple alternative theoretical accounts of the phenomenon. To this end, new populations and measures are included in the design in addition to the original ones, to help determine which theory best accounts for the results across multiple key outcomes and contexts. The present pre-registered empirical project compared the Implicit Puritanism account of intuitive work and sex morality to theories positing regional, religious, and social class differences; explicit rather than implicit cultural differences in values; self-expression vs. survival values as a key cultural fault line; the general moralization of work; and false positive effects. Contradicting Implicit Puritanism's core theoretical claim of a distinct American work morality, a number of targeted findings replicated across multiple comparison cultures, whereas several failed to replicate in all samples and were identified as likely false positives. No support emerged for theories predicting regional variability and specific individual-differences moderators (religious affiliation, religiosity, and education level). Overall, the results provide evidence that work is intuitively moralized across cultures

Sequential Adaptive Mutations Enhance Efficient Vector Switching by Chikungunya Virus and Its Epidemic Emergence

The adaptation of Chikungunya virus (CHIKV) to a new vector, the Aedes albopictus mosquito, is a major factor contributing to its ongoing re-emergence in a series of large-scale epidemics of arthritic disease in many parts of the world since 2004. Although the initial step of CHIKV adaptation to A. albopictus was determined to involve an A226V amino acid substitution in the E1 envelope glycoprotein that first arose in 2005, little attention has been paid to subsequent CHIKV evolution after this adaptive mutation was convergently selected in several geographic locations. To determine whether selection of second-step adaptive mutations in CHIKV or other arthropod-borne viruses occurs in nature, we tested the effect of an additional envelope glycoprotein amino acid change identified in Kerala, India in 2009. This substitution, E2-L210Q, caused a significant increase in the ability of CHIKV to develop a disseminated infection in A. albopictus, but had no effect on CHIKV fitness in the alternative mosquito vector, A. aegypti, or in vertebrate cell lines. Using infectious viruses or virus-like replicon particles expressing the E2-210Q and E2-210L residues, we determined that E2-L210Q acts primarily at the level of infection of A. albopictus midgut epithelial cells. In addition, we observed that the initial adaptive substitution, E1-A226V, had a significantly stronger effect on CHIKV fitness in A. albopictus than E2-L210Q, thus explaining the observed time differences required for selective sweeps of these mutations in nature. These results indicate that the continuous CHIKV circulation in an A. albopictus-human cycle since 2005 has resulted in the selection of an additional, second-step mutation that may facilitate even more efficient virus circulation and persistence in endemic areas, further increasing the risk of more severe and expanded CHIK epidemics

A spectrum of viral diseases in Odisha state, eastern India: An evidence-based analysis from 2010–2017

Introduction: Emerging and re-emerging viral diseases are a major threat to public health. Odisha, being one of the coastal states in the country, reports many viral illnesses due to its typical geographical location. This study focuses on the prevalence of different viral diseases in the state of Odisha, India, from 2010–2017. Material and Methods: A total of 43,397 patients with clinical suspicion of viral diseases were screened for different viral etiologies during 2010–2017. The laboratory diagnosis was conducted by serology (ELISA) and RT-PCR for 24 different viruses, i.e., dengue, chikungunya, Japanese encephalitis, hepatitis A virus, hepatitis E virus, hepatitis B virus, hepatitis C virus, rotavirus, herpes simplex virus-1 and herpes simplex virus-2, Epstein-Barr virus, cytomegalovirus, and respiratory viruses. Patients were enrolled from sporadic hospital admissions and outbreaks under different categories as per clinical diagnoses like fever with rash, diarrhoea, encephalitis, jaundice, respiratory illness, and fever of unknown etiology. Results: The majority of patients belonged to exanthematous group, i.e., fever with rash (32.24%). The number of males was more in all categories except fever with rash, where females (53.34%) were more. Children <16 years of age were found to be the predominant age group for suspected viral diarrhoea (85.26%), encephalitis (76.96%), fever of unknown origin (40.16%), and respiratory infections (27.23%). Conclusion: Not only vector-borne diseases pose a threat to the Odisha state, but other viral illnesses have also emerged. This detailed report of different viral diseases in the state of Odisha will support public health management

Waste to wealth: microbial-based valorization of grape pomace for nutraceutical, cosmetic, and therapeutic applications to promote circular economy

Grape pomace, the solid residue produced during fruit extraction, is a significant by-product of the wine industry. The industry generates vast amounts of grape pomace each year, causing environmental concerns. Despite its immense potential as a source of bioactive compounds, grape pomace is mostly disposed of, with only a tiny portion used as animal feed. Numerous studies highlight the capability of microorganisms, especially filamentous fungi, that can convert grape pomace into various value-added products. In particular, the Phanerochaete, Bjerkandera, and Pleurotus genera are renowned for their capacity to release lignocellulolytic enzymes that allow the conversion of sugars into valuable compounds with extensive applications. This review article introduces innovative microbial valorisation techniques to extract beneficial compounds for use in the nutraceutical, cosmetic, and therapeutic industries. Furthermore, the potential implementation of a circular economy model and essential strategies to mitigate the environmental implications of grape pomace disposal are also discussed